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Numerical Weather Prediction Readiness for NPP And JPSS Data Assimilation Experiments for CrIS and ATMS

Numerical Weather Prediction Readiness for NPP And JPSS Data Assimilation Experiments for CrIS and ATMS. Kevin Garrett 1 , Sid Boukabara 2 , James Jung 3 , Eve-Marie Devaliere 4 , Xiaoyan Zhang 4 , Wanchun Chen 1. NOAA Satellite Science Week May 3, 2012 Kansas City, MO.

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Numerical Weather Prediction Readiness for NPP And JPSS Data Assimilation Experiments for CrIS and ATMS

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  1. Numerical Weather Prediction Readiness for NPP And JPSS Data Assimilation Experiments for CrIS and ATMS Kevin Garrett1, Sid Boukabara2, James Jung3, Eve-Marie Devaliere4, Xiaoyan Zhang4, Wanchun Chen1 NOAA Satellite Science Week May 3, 2012 Kansas City, MO 1. Riverside Technology, Inc 2. Joint Center for Satellite Data Assimilation 3. University of Wisconsin 4. ERT

  2. 4 2 3 Forecast Impact Future Work/Summary ATMS Radiance Assimilation Outline JCSDA Status 1 NOAA Satellite Science Week Meeting

  3. JCSDA Status JCSDA / NESDIS / NCEP agreement to expedite R2O for ATMS assimilation into the GSI GDAS Hybrid/ENKF ported to S4 system Verification and Radiance Monitoring ported to S4 JCSDA website extended for experiment visualization Control run and ATMS experiments run for Dec 15 – March 15 CrIS proxy data and real data being assimilated NOAA Satellite Science Week Meeting

  4. S4 Overview • Major activities • (1) Undertake satellite data assimilation experiments at global and/or regional scales and the assessment of their impacts on forecast models skills, using currently flying satellite sensors and allowing scientists to test new science/methodology and • (2) In support of the activity above, undertake all necessary satellite data simulations, calibration, algorithms development/improvement, radiative transfer modeling and validation, quality control (QC) procedures, etc • (3) Perform Observing System Simulation Experiments (OSSEs) for new sensors (such as GOES-R and JPSS). Supercomputer for Satellite Simulations and data assimilation Studies (S4), hosted by University of Wisconsin. • Brief Technical Description • The S4 system is a Linux cluster (Dell hardware) • 3072 CPU cores in 64 compute nodes with 8TB of total RAM • 520 TB in 26 storage nodes • Quad data rate (40 Gbps) Infiniband interconnects between all compute and storage nodes • Lustre high performance filesystem for scratch space (4 x 80TB) and data storage (200 TB) • Hosted in the UW/SSEC Data Center (with UPS) NOAA Satellite Science Week Meeting

  5. 4 2 3 Forecast Impact Future Work/Summary ATMS Radiance Assimilation Outline JCSDA Status 1 NOAA Satellite Science Week Meeting

  6. Experiment Overview • Goal: Determine the ATMS assimilation impact on forecast • Use updated GFS and GDAS with GSI Hybrid Ensemble Kalman Filter (ENKF)/3DVAR • Control run • ATMS run • Forecast/analysis model resolution at T574 • 80 ensemble members during analysis at T254 • Begin Dec. 15, 2011 • ATMS bias spun-up by NCEP • Allow model spin-up on S4 for 1 month of data • Assessment period Jan. 15, 2012 – Mar. 15, 2012 NOAA Satellite Science Week Meeting

  7. Experiment Overview • ATMS run • All control obs plus NPP ATMS (TDR) • FOVs 1-3 and 94-96 not assimilated • All channels except for 15 (57 GHz) • All channels averaged to 3.3 beam resolution (AAPP) • Control run • Conventional data (RAOB, aircraft, ship, buoys), AMVs, surface synoptic • Satellite data: • AMSU-A (N15, N18, N19, AQUA) • MHS (N18, N19, MetOp-A) • HIRS (N19, MetOp-A) • IASI (MetOp-A) • AIRS (AQUA) • AVHRR (N18, N19, MetOp-A) • GOES Sounder (13) • Seviri (Meteosat 9) • ASCAT, WindSat NOAA Satellite Science Week Meeting

  8. ATMS Spatial Averaging Channel 1 3.3° – 5.2° NOAA Satellite Science Week Meeting

  9. ATMS Coverage N18 AMSU-A 23 GHz NPP ATMS 23 GHz NOAA Satellite Science Week Meeting

  10. ATMS Observation Count Observation Counts N19 AMSU-A 23 GHz Obs Count by Scan Position N19 AMSU-A 52 GHz S-NPP ATMS 23 GHz S-NPP ATMS 52 GHz NOAA Satellite Science Week Meeting

  11. ATMS Bias ATMS 1-4 AMSU 1-4 ATMS 17-21 MHS 1-4 NOAA Satellite Science Week Meeting

  12. Initial CrIS Assimilation NOAA Satellite Science Week Meeting

  13. 4 2 3 Forecast Impact Future Work/Summary ATMS Radiance Assimilation Outline JCSDA Status 1 NOAA Satellite Science Week Meeting

  14. Anomaly Correlation NOAA Satellite Science Week Meeting

  15. Anomaly Correlation NOAA Satellite Science Week Meeting

  16. CONUS Precip Scores NOAA Satellite Science Week Meeting

  17. 4 2 3 Forecast Impact Future Work/Summary ATMS Radiance Assimilation Outline JCSDA Status 1 NOAA Satellite Science Week Meeting

  18. Future Work Finalize assessment of ATMS impact from data denial experiment Work on alignment of control runs between s4 and CCS (benchmark) Assess impact of ATMS replacement of POES/Metop (remove redundancy) Work closely with NCEP partners to support successful transition of ATMS into operations Coorindate with parallel efforts to assess the overall global observing system and how ATMS fits in Coordinate efforts to begin impact assessment of assimilation NOAA products into NOAA models, in collaboration with CIRA (water vapor), CIMMS (temperature sounding), and CREST (surface products) NOAA Satellite Science Week Meeting

  19. Summary S4 providing resources for OSSEs and data denial experiments (global/regional) ATMS data assimilated successfully with neutral impact CrIS proxy data successfully assimilated; CrIS real data successfully ingested but needs tuning Thank you! Acknowledgements: John Derber, Andrew Collard, Daryl Kleist (NCEP/EMC) NOAA Satellite Science Week Meeting

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